Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers

髓鞘 鞘磷脂 磷脂酰丝氨酸 磷脂酰胆碱 化学 磷脂酰乙醇胺 生物物理学 外周神经系统 坐骨神经 内科学 内分泌学 双层 胆固醇 生物化学 医学 磷脂 中枢神经系统 生物
作者
Yiding Yuan,Yalun Yu,Jeffery B. Klauda
出处
期刊:Journal of Physical Chemistry B [American Chemical Society]
卷期号:125 (23): 6201-6213 被引量:10
标识
DOI:10.1021/acs.jpcb.1c01621
摘要

The multilayered myelin sheath is a critical component of both central and peripheral nervous systems, forming a protective barrier against axonal damage and facilitating the movement of nervous impulses. It is primarily composed of cholesterol (CHL1), phosphatidylcholine (PC), phosphatidylethanolamine (PE), phosphatidylserine (PS), phosphatidylinositol (PI), sphingomyelin (SM), and galactosylceramide (GalCer) lipids. For rat sciatic nerve myelin (part of the peripheral nervous system, PNS), it has been found that cholesterol and unsaturated fatty acid contents are significantly lower in diabetic than in non-diabetic conditions. In this study, lipid compositions from experimental data are used to create four model rat sciatic nerve myelin lipid bilayers: PI-containing (non-diabetic and diabetic) and PS-containing (non-diabetic and diabetic), which were then simulated using the all-atom CHARMM36 force field. Simulation results of diabetic membranes indicate less rigid, more laterally expansive, and thinner bilayers as well as potentially reduced interactions between GalCer on opposing myelin leaflets, supporting a direct role of the cholesterol content decrease in instigating myelin deterioration and diabetic peripheral neuropathy. Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. GalCer deuterium order parameters and non-diabetic headgroup-to-headgroup bilayer thicknesses were compared to experimental data, exhibiting close alignment, supporting the future usage of these models to study the PNS myelin sheath.
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